Note: Supplemental materials are not guaranteed with Rental or Used book purchases.
Purchase Benefits
What is included with this book?
Volume 1 contains chapters 1-19 | |
Volume 2 contains chapters 20-39 | |
Doing Physics | p. 1 |
Realms of Physics | p. 1 |
Measurements and Units | p. 2 |
Working with Numbers | p. 5 |
Strategies for Learning Physics | p. 7 |
Mechanics | p. 13 |
Motion in a Straight Line | p. 14 |
Average Motion | p. 14 |
Instantaneous Velocity | p. 16 |
Acceleration | p. 19 |
Constant Acceleration | p. 20 |
The Acceleration of Gravity | p. 23 |
Motion in Two and Three Dimensions | p. 31 |
Vectors | p. 31 |
Velocity and Acceleration Vectors | p. 34 |
Relative Motion | p. 35 |
Constant Acceleration | p. 36 |
Projectile Motion | p. 38 |
Uniform Circular Motion | p. 42 |
Force and Motion | p. 49 |
The Wrong Question | p. 49 |
Newton's First and Second Laws | p. 50 |
Forces | p. 54 |
The Force of Gravity | p. 55 |
Using Newton's Second Law | p. 56 |
Newton's Third Law | p. 58 |
Using Newton's Laws | p. 67 |
Using Newton's Second Law | p. 67 |
Multiple Objects | p. 70 |
Circular Motion | p. 73 |
Friction | p. 76 |
Drag Forces | p. 80 |
Work, Energy, and Power | p. 86 |
Work | p. 87 |
Forces That Vary | p. 89 |
Kinetic Energy | p. 93 |
Power | p. 95 |
Conservation of Energy | p. 102 |
Conservative and Nonconservative Forces | p. 103 |
Potential Energy | p. 104 |
Conservation of Mechanical Energy | p. 107 |
Potential-Energy Curves | p. 110 |
Gravity | p. 118 |
Toward a Law of Gravity | p. 119 |
Universal Gravitation | p. 119 |
Orbital Motion | p. 121 |
Gravitational Energy | p. 123 |
The Gravitational Field | p. 126 |
Systems of Particles | p. 132 |
Center of Mass | p. 132 |
Momentum | p. 137 |
Kinetic Energy of a System | p. 141 |
Collisions | p. 142 |
Totally Inelastic Collisions | p. 143 |
Elastic Collisions | p. 145 |
Rotational Motion | p. 155 |
Angular Velocity and Acceleration | p. 156 |
Torque | p. 158 |
Rotational Inertia and the Analog of Newton's Law | p. 160 |
Rotational Energy | p. 165 |
Rolling Motion | p. 167 |
Rotational Vectors and Angular Momentum | p. 174 |
Angular Velocity and Acceleration Vectors | p. 174 |
Torque and the Vector Cross Product | p. 175 |
Angular Momentum | p. 177 |
Conservation of Angular Momentum | p. 178 |
Gyroscopes and Precession | p. 180 |
Static Equilibrium | p. 186 |
Conditions for Equilibrium | p. 186 |
Center of Gravity | p. 188 |
Examples of Static Equilibrium | p. 188 |
Stability | p. 191 |
Oscillations, Waves, and Fluids | p. 203 |
Oscillatory Motion | p. 204 |
Describing Oscillatory Motion | p. 205 |
Simple Harmonic Motion | p. 206 |
Applications of Simple Harmonic Motion | p. 209 |
Circular and Harmonic Motion | p. 212 |
Energy in Simple Harmonic Motion | p. 213 |
Damped Harmonic Motion | p. 214 |
Driven Oscillations and Resonance | p. 215 |
Wave Motion | p. 222 |
Waves and Their Properties | p. 222 |
Wave Math | p. 224 |
Waves on a String | p. 225 |
Sound Waves | p. 228 |
Interference | p. 229 |
Reflection and Refraction | p. 232 |
Standing Waves | p. 234 |
The Doppler Effect and Shock Waves | p. 236 |
Fluid Motion | p. 243 |
Density and Pressure | p. 243 |
Hydrostatic Equilibrium | p. 244 |
Archimedes' Principle and Buoyancy | p. 247 |
Fluid Dynamics | p. 248 |
Applications of Fluid Dynamics | p. 250 |
Viscosity and Turbulence | p. 254 |
Thermodynamics | p. 261 |
Temperature and Heat | p. 262 |
Heat, Temperature, and Thermodynamic Equilibrium | p. 263 |
Heat Capacity and Specific Heat | p. 264 |
Heat Transfer | p. 266 |
Thermal-Energy Balance | p. 271 |
The Thermal Behavior of Matter | p. 279 |
Gases | p. 279 |
Phase Changes | p. 283 |
Thermal Expansion | p. 286 |
Heat, Work, and the First Law of Thermodynamics | p. 292 |
The First Law of Thermodynamics | p. 292 |
Thermodynamic Processes | p. 294 |
Specific Heats of an Ideal Gas | p. 301 |
The Second Law of Thermodynamics | p. 309 |
Reversibility and Irreversibility | p. 310 |
The Second Law of Thermodynamics | p. 310 |
Applications of the Second Law | p. 314 |
Entropy and Energy Quality | p. 317 |
Electromagnetism | p. 327 |
Electric Charge, Force, and Field | p. 328 |
Electric Charge | p. 328 |
Coulomb's Law | p. 329 |
The Electric Field | p. 332 |
Fields of Charge Distributions | p. 334 |
Matter in Electric Fields | p. 338 |
Gauss's Law | p. 347 |
Electric Field Lines | p. 347 |
Electric Flux and Field | p. 349 |
Gauss's Law | p. 351 |
Using Gauss's Law | p. 352 |
Fields of Arbitrary Charge Distributions | p. 358 |
Gauss's Law and Conductors | p. 359 |
Electric Potential | p. 367 |
Electric Potential Difference | p. 367 |
Calculating Potential Difference | p. 370 |
Potential Difference and the Electric Field | p. 376 |
Charged Conductors | p. 378 |
Electrostatic Energy and Capacitors | p. 384 |
Electrostatic Energy | p. 385 |
Capacitors | p. 385 |
Using Capacitors | p. 387 |
Energy in the Electric Field | p. 391 |
Electric Current | p. 398 |
Electric Current | p. 398 |
Conduction Mechanisms | p. 400 |
Resistance and Ohm's Law | p. 405 |
Electric Power | p. 407 |
Electrical Safety | p. 408 |
Electric Circuits | p. 415 |
Circuits, Symbols, and Electromotive Force | p. 415 |
Series and Parallel Resistors | p. 417 |
Kirchhoff's Laws and Multiloop Circuits | p. 423 |
Electrical Measurements | p. 425 |
Capacitors in Circuits | p. 426 |
Magnetism: Force and Field | p. 436 |
What Is Magnetism? | p. 436 |
Magnetic Force and Field | p. 437 |
Charged Particles in Magnetic Fields | p. 438 |
The Magnetic Force on a Current | p. 441 |
Origin of the Magnetic Field | p. 442 |
Magnetic Dipoles | p. 446 |
Magnetic Matter | p. 449 |
Ampere's Law | p. 451 |
Electromagnetic Induction | p. 464 |
Induced Currents | p. 464 |
Faraday's Law | p. 466 |
Induction and Energy | p. 469 |
Inductance | p. 474 |
Magnetic Energy | p. 479 |
Induced Electric Fields | p. 481 |
Alternating-Current Circuits | p. 489 |
Alternating Current | p. 489 |
Circuit Elements in AC Circuits | p. 490 |
LC Circuits | p. 495 |
Driven RLC Circuits and Resonance | p. 497 |
Power in AC Circuits | p. 500 |
Transformers and Power Supplies | p. 500 |
Maxwell's Equations and Electromagnetic Waves | p. 508 |
The Four Laws of Electromagnetism | p. 509 |
Ambiguity in Ampere's Law | p. 509 |
Maxwell's Equations | p. 511 |
Electromagnetic Waves | p. 512 |
Properties of Electromagnetic Waves | p. 515 |
The Electromagnetic Spectrum | p. 519 |
Producing Electromagnetic Waves | p. 520 |
Energy and Momentum in Electromagnetic Waves | p. 521 |
Optics | p. 529 |
Reflection and Refraction | p. 530 |
Reflection | p. 530 |
Refraction | p. 532 |
Total Internal Reflection | p. 534 |
Dispersion | p. 536 |
Images and Optical Instruments | p. 542 |
Images with Mirrors | p. 543 |
Images with Lenses | p. 548 |
Refraction in Lenses: The Details | p. 551 |
Optical Instruments | p. 554 |
Interference and Diffraction | p. 563 |
Coherence and Interference | p. 563 |
Double-Slit Interference | p. 565 |
Multiple-Slit Interference and Diffraction Gratings | p. 567 |
Interferometry | p. 570 |
Huygens' Principle and Diffraction | p. 573 |
The Diffraction Limit | p. 577 |
Modern Physics | p. 585 |
Relativity | p. 586 |
Speed c Relative to What? | p. 587 |
Matter, Motion, and the Ether | p. 587 |
Special Relativity | p. 589 |
Space and Time in Relativity | p. 590 |
Simultaneity Is Relative | p. 595 |
The Lorentz Trasformations | p. 596 |
Energy and Momentum in Relativity | p. 599 |
Electromagnetism and Relativity | p. 602 |
General Relativity | p. 604 |
Particles and Waves | p. 609 |
Toward Quantum Theory | p. 609 |
Blackbody Radiation | p. 610 |
Photons | p. 613 |
Atomic Spectra and the Bohr Atom | p. 616 |
Matter Waves | p. 619 |
The Uncertainty Principle | p. 621 |
Complementarity | p. 624 |
Quantum Mechanics | p. 629 |
Particles, Waves, and Probability | p. 630 |
The Schrodinger Equation | p. 631 |
Particles and Potentials | p. 633 |
Quantum Mechanics in Three Dimensions | p. 640 |
Relativistic Quantum Mechanics | p. 641 |
Atomic Physics | p. 646 |
The Hydrogen Atom | p. 646 |
Electron Spin | p. 651 |
The Exclusion Principle | p. 654 |
Multielectron Atoms and the Periodic Table | p. 655 |
Transitions and Atomic Spectra | p. 658 |
Molecules and Solids | p. 666 |
Molecular Bonding | p. 666 |
Molecular Energy Levels | p. 668 |
Solids | p. 671 |
Superconductivity | p. 677 |
Nuclear Physics | p. 684 |
Elements, Isotopes, and Nuclear Structure | p. 684 |
Radioactivity | p. 689 |
Binding Energy and Nucleosynthesis | p. 695 |
Nuclear Fission | p. 697 |
Nuclear Fusion | p. 702 |
From Quarks to the Cosmos | p. 709 |
Particles and Forces | p. 709 |
Particles and More Particles | p. 710 |
Quarks and the Standard Model | p. 714 |
Unification | p. 717 |
The Evolving Universe | p. 719 |
Appendices | |
Mathematics | p. A-1 |
The International System of Units (SI) | p. A-9 |
Conversion Factors | p. A-11 |
The Elements | p. A-13 |
Astrophysical Data | p. A-16 |
Answers to Odd-Numbered Exercises and Problems | p. A-17 |
Credits | p. C-1 |
Index | p. I-1 |
Table of Contents provided by Ingram. All Rights Reserved. |
The New copy of this book will include any supplemental materials advertised. Please check the title of the book to determine if it should include any access cards, study guides, lab manuals, CDs, etc.
The Used, Rental and eBook copies of this book are not guaranteed to include any supplemental materials. Typically, only the book itself is included. This is true even if the title states it includes any access cards, study guides, lab manuals, CDs, etc.